Methods and Compositions for Treating Pollution

ABSTRACT

This invention relates to compositions and methods for improving water quality by enhancing natural bacterial processes and altering environmental conditions in situ. This is achieved by the manufacture and use of granules or tablets composed of the inventive formulations.

This application claims priority from U.S. Provisional Application No.60/800,953 filed May 17, 2006, which is incorporated herein by referencein its entirety.

FIELD OF THE INVENTION

The present invention relates to novel methods and compositions for thetreatment of water, wastewater and polluted surface waters. Theinvention enhances natural bacterial processes and alters environmentalconditions in situ. This is achieved by the manufacture and use ofgranules or single layer pucks containing the invention formulations.

DESCRIPTION OF THE PRIOR ART

Pollution continues to be an enormous problem. Industrial, agriculturaland residential effluents continue to pollute our waterways withorganic, inorganic and metallic pollutants. Current treatments includeremoving polluted sediment, removing the pollutants, and then optionallyreturning the clean sediment to the environment. This method, however,is very disruptive and disturbing to the environment.

Another prior art technique employs time released preparations. Here,one or more ingredients would be released to alter the environment,followed by the germination of desired bacteria, which would break downthe pollutants.

One example of this type of preparation is described in U.S. Pat. No.5,275,943, which is incorporated herein by reference in its entirety. Inthis patent, a time release two layered tablet is employed. The firstlayer would dissolve and, for example, release oxygen. This oxygen wouldeffervesce out of the top layer of the tablet, helping to correctanaerobia conditions and stirring up the sediment. Then, beneficialaerobic bacteria would be released to break down the pollutants.

This technique has several disadvantages. First, there is a time delaysince the oxygen must effervesce, then the bacteria is released. Second,the formulation of a two layered tablet, sometimes called a table withina tablet, is expensive and time consuming.

OBJECTS OF THE INVENTION

It is an object of this invention to provide for methods andcompositions for treating water pollution in potable water, groundwater, wastewater and surface water.

It is a further object of this invention to treat water pollution in arapid manner.

It is still a further object of this invention to treat water pollutionwith a preparation which there is no time-delay between the release ofthe ingredients which alter environmental conditions and the biologicalportion of the ingredients.

It is yet still a further object of the present invention to treat waterpollution with a preparation which is not a tablet within a tablet ormulti-layered. The solid compressed mixture of ingredients is homogenousand erodes in solution at a constant rate creating reactive plume.

It is yet still a further object of the present invention is the use ofunique substrates for the microbes/yeasts/fungi, that have eitherneutral, positive or negative buoyancies in aqueous solution to acts asvectors to deliver the biological portion of the puck to particular areaof the water to be treated without the necessity for mechanical mixing.

It is yet still a further object of the present invention is the use ofnaturally produced botanical fibers, extracts and proteins in place ofcommonly used toxic and synthetic compounds to aid in particle adherenceand suspended solids flocculation. These fibers, extracts and proteinsare incorporated in the compress matrix of the solid tablet or loosemixture of the granules.

These and other benefits of the instant invention are set forth below.

FIGURES

FIG. 1 is a comparison of measured liquid-phase sulfide productionduring Aqua-Puck Dosing period to predicted liquid-phase sulfideproduction using simple correlation equation based on TA-HRT and CODconcentration.

FIG. 2 is a comparison of measured TA-220 liquid-phase sulfideconcentration during Aqua-Puck Dosing period to predicted liquid-phasesulfide concentration using simple correlation equation based on HRT andCOD concentration.

DETAILED DESCRIPTION OF THE INVENTION

Applicants have discovered that the instant preparations do not have tobe time released because enough beneficial bacteria survive without timerelease to propagate and treat the pollution problem. Thus, for example,a tablet within a tablet formulation is not necessary. Likewise, to formgranules, the ingredients can be simply mixed together. There is no needto formulate a tablet within a tablet and then grind that preparationup.

Also, the bacteria, used in the instant invention can be lyophilized toor incorporated in a substance which can sink, float or have a neutralbuoyancy, thereby have control over where the bacteria will end up, thesurface, suspended in the water column, or settle into the sediment. Inaddition, these substrates can exhibit a valance charge either anionicor cationic, thereby taking advantage of Van der Waal's attraction orelectronegative repulsion to affect the net zeta potential of theeffected solution.

In addition, the present invention uses a plant extract protein, and theprotein exhibits a negative valence charge. This protein acts insolution by repelling similar charged particles and attractingoppositely charged particles. This movement, being caused by Van derWaal's attraction and electronegative repulsion, results in thealteration of the suspension's zeta potential. The protein attaches topollutants with the opposite charge, increasing the suspended particlesmass and precipitating them out of solution in a process calledflocculation. The improved technique, outlined in this invention,replaces the commonly used method of using toxic Ferric or AluminumChloride or the newly developed synthetic polymers which are producedusing toxic compounds, the procedure by which creates additionalpollutants. Using the naturally occurring fibers, extracts and isolatedproteins from plants and fungi such as drumstick tree (genus Moringa),Soapnut Tree (genus Sapindus), neem tree (genus Azadirachta, Melia orAntelaea), Caster tree seed (genus Ricinus) aloe vera (genus Aloe),prickly pair cactus (genus Opuntia) Guar Gum Tree (genus Cyamopsis),horseradish (genus Armoracia or Cochlearia), barley (genus Hordeum),Ryegrass (genus Lolium), Oats (genus Avena), Lucerne (genus Medicago),Yucca (genus Yucca), red clover (genus Trifolium), Mucoralean Fungi(genus Actinomucor, Mucor, Cunninghamella and Syncephalastrum) are lessexpensive, with better performance and are biodegradable andenvironmentally sustainable as a non-polluting natural resource.

Formulations for the purpose of improving water quality by enhancingnatural bacterial processes and altering environmental conditions insitu are set forth below. This is achieved by the manufacture and use ofgranules or tablets composed of special formulations.

A. Surface Water Clarifier

This product addresses the problems of pond and lake pollution in theform of eutrophic conditions. These conditions are due either to overfertilization or lack of oxygen. These conditions result in theovergrowth of various forms of nuisance algae, leaving the water murkyand the surface possibly covered with a filamentous algal mat. Thesenuisance forms of algae inhibit the growth of more beneficial species ofaquatic plants. In addition, anaerobic conditions are generated due tothe increased oxygen demand created by the decay of the dead plant andalgal matter. The anaerobic bacterial degradation of decaying organicmatter generates foul smelling odors and gases. Poor environmentalconditions lead to fish kills as well as decreased viability of faunaand flora affecting the flood web (insects, amphibians, reptiles, birds,and plants).

This product provides an environmentally friendly alternative to the useof toxic metals and synthetic herbicides in the treatment andclarification of eutrophic surface waters. Preparation involves theblending of dry powdered botanical materials and chemical compounds andcompressing them into larger granular or tabletized form in order toenhance their method of dispersion and speed the actives.

The purpose of this particular formulation is to clarify a body ofwater, such as a pond, lake, stream, lagoon or bay as well as inhibitthe growth of a wide range of pest species of algae such as e.g.,Spirogyra, Cladophora, Pithophora, Lyngbia, Anabaena, Microcysitis andCylindrospermopsis, many of which do not respond well to commonly usedherbicidal treatments such as copper sufate. A blended mixture ofpowdered botanical material (such as dehydrated barley straw, rye grassleaves, red clover leaves, lucerne leaves), oxidative alkali (such assodium carbonate peroxyhydrate, sodium perborate, sodium peroxide) and aclarifying agent such as activated botanical proteins (such as thosefound in the plants in the genus Morgina) is used. An additional variantwhich contains oil of the neem tree, Azadirachta indica, for use incontrolling mosquito infestation in standing surface waters, can also beadded. The formulation may also include microorganisms that aid in theprocess of breaking down the barley straw particles and may also help toreduce the settled sludge (decaying organic matter and detritus) at thebottom of the pond or waterway. The type of microbes can includebacteria, such as the strains from the genus Bacillus (eg. Bacilluslicheniformis—Bacillus subtilis, Bacillus polymyxa, Bacillus megaterium)Pseudomonas (eg. Pseudomonas putida) and Lactbacillus (e.g.Lactobacillus sp.).

B. Wastewater Treatment

The purpose of this product is to improve the quality of water byimproved clarification (lowering of dissolved and suspended solids andbiochemical oxygen demand), in situ reduction of hydrogen sulfide,ammonia and volatile fatty acid and the enhanced microbiologicalbreakdown of fats, oils and greases.

There are a number of problems related to wastewater treatment. Thewastewater is confined and in low flow conditions, which leads toanaerobic conditions. Anaerobes generate sulfides, ammonium ions,volatile fatty acids, and methane. Intermittent flows (due to changes inwater demand during the day) exacerbates the anaerobic buildup of gases((H2S, NH3, and Volatile Fatty Acids) dissolved in solution. causes themassive release of the odorous gases from solution (degassing, or purge)as a slow flow suddenly increases. Also, laminar flow results in no flowat the surface of the wastewater. These conditions can result in theescape of noxious gases, corrosion, bacterial slime and lack of oxygen.

The present invention treats these problems as follows:

1) Rate of Settling of Suspended Solids is Increased Due to:

Mechanical action of rising oxygen bubbles provided by the inventivegranules or pucks forces particles closer together, increasing thechange of agglomeration. The agglomerated particles have increased massand there fore are able to overcome forces restricting their settlement(e.g. water flow, phase differences, thermoclynes).

The botanical flocculants that are released into the solution as theinventive puck or granules disintegrate act as a seed particle for theremoval of dissolved solids from solution. An example is the removal ofdissolved calcium in the form of carbonates from a concentratedsolution. As the calcium adheres to the charged protein particles, theyact as substrate base for the formation of crystal complexes which growlarger and more massive. As their mass increases, so also does theirsettling rate. Removing dissolved electrolytes from solution alsoaffects the solutions zeta potential and enhances the process.

2) Prevention of Formation Odors and Noxious Gases that Lead to AcidCorrosion (Hydrogen Sulfide, Ammonia, Volatile Fatty Acids):

Achieved by purging dissolved gases out of solution by the physicalaction of bubbling a gas through the solution (Henry's Law).

By using oxygen as the gas for this purpose, aerobic conditions can bemaintained, preventing the generation of gases and compounds that arecreated anaerobically.

By preventing these gases, the present invention prevents theircondensates (sulfuric and nitric acids) which cause infrastructure(pipes, tanks, enclosures, hardware etc.) damage.

Existing acids are neutralized by chemical reaction with alkalinebuffers and the oxidation of dissolved organic acids.

Dissolved hydrogen sulfide is chemically bonded to form a precipitantsalt, by interaction with unique activated form of a botanical extract(of a plant in the genus Ricinus or Moringa) that has preferably beensphereulated and coated to form a dry flowable powder.

3) Inoculate Water and Surface FOG (Fats, Oils, Greases), with SpecificMicroorganisms (Bacteria, Fungi and Yeasts).

These organisms can either be in a dry sporeulated form that has beenlyophilized onto a substrate or in a suspended vegetative state which isthen encapsulated into the structure of a micro-sponge.

The types of microbes can include bacteria from various species andstrains from the genus Bacillus (e.g. Bacillus licheniformis, Bacillussubtilis, Bacillus polymyxa, Bacillus megaterium) and Pseudomonas (eg.Pseudomonas putida) and various species and strains of fungi (e.g.Hanerochaete chrysosporium and Aspergillus niger)

The buoyancy of the substrate material can be chosen specifically toensure that the specific microbes are transported to their designateddestination (surface, middle water column, or bottom sediment).

Micro-nutrients and environmental adjusters can be included to ensureproper germination of microbes.

Through the adjustment of nutrients, buffers, additives and correctspecies of microbes a special preparation can be made to treat greases(restaurant grease trap wastes) and convert it to yellow grease (cleanoils of similar molecular weight) as a feed stock for the production ofbiodiesel, an alternative fuel source form crude petroleum based fuels(e.g. fuel oil, and natural gas).

A special device can be employed to aid in the processing of this graygrease which employs ultrasonic sound waves and or light waves.

Device for storing, then applying pucks to a wastewater stream,wastewater holding tank or grease trap.

4) Use in the Treatment of Portable Toilet Waste, Both in HoldingContainers and in Transport.

This includes all the advantages and treatment processes described inthe treatment of wastewater above.

Pucks also include a non-toxic and biodegradable dye to color thetreated water (most commonly blue).

The dye or dyes chosen have to remain stable (color fast) in a highlyacidic (due to urine) environment for the amount of time the wasteremains in the toilet (3 to 7 days).

In addition the, puck will contain a non-toxic and biodegradablefragrance used to mask the waste odor, and make the atmosphere in theportable toilet more pleasant.

Also, the puck may contain additives that bind the odorous compoundssuch as hydrogen sulfide. (An example of which is a derivative ofRicinus communis seed extract.)

5) A Variation of Puck Formulation for Use in Removal of Arsenic andChromium from Water (Groundwater, Surface Water, and Process Water).

Use of (lime) (0.1%) to coagulate and micro-filter.

Puck uses activated botanical proteins and acids (from the genus Moringaand Aloe, Opuntia, Cyamopsis, Yucca, Actinomucor, Mucor, Cunninghamellaand Syncephalastrum) to coagulate and chemically bind metals.

Puck may contain activated botanical extracts of plants from the genusMorgina that has been processed into a dry flowable powdered form. Thiscompound binds hydrogen sulfide (a compound that inhibits metalsremoval) and takes it out of solution.

May be used in conjunction with water filtration devises specificallydesigned to take advantage of the properties of said proteins.

Puck also contains and oxidative alkali such as sodium percarbonate,calcium peroxide.

In addition, puck may contain calcium oxide, ferric sulfate, activatedalumina, bentonite clay and powdered zeolite, to aid in the process ofmetals removal.

C. Drain Treatment—Insect Control

This product is used as a drain clarifier and standing water treatmentto reduce and eliminate flying pest infestation. The invention providesan environmentally friendly alternative to the use of toxic metals andchemical pesticides in the prevention of fruit fly and other nuisanceand pest fly infestation. This is a granular mixture of the extract oilof the neem tree (Azadirachta indica) containing a high concentration ofthe active ingredient azadirachtin, sodium percarbonate and sodiumcarbonate, and may include fragrance, surfactant, microbes and enzymes.

Preparation involves the blending of dry powdered effervescent alkaliwith botanical materials and other chemical compounds as well as oilextract of the neem tree seed.

When the mixture is applied to floor drains, the alkali effervesces,distributing the oil throughout the standing water and incorporates itinto the occlusion of oil and grease on the walls of the pipes.

When flies come in contact with oil extract which contains thelimonoids, azadirachtin, salannin, and deacetylgedunin, compounds thatinhibits fly instars development, they loose their fecundity, withlarval mortality between the 1st and 3rd instar.

The infestation is eliminated once the adult flies perish in two to fourweeks.

Formulations Pond Treatment Puck

This product forms stable and structurally sound pucks (or tablets) withincreased hardness and limited friability and lack of shearing using thelisted ingredients in a 2.5″ to 3″ tablet diameter size with a weight ofabout 150 grams. When placed in solution the puck will disintegratefairly quickly which is useful. Here, one sees the complete dispersionof the powdered ingredients throughout the water column leading to theirrising to the water surface, rather than staying in a lump at thebottom.

Tablet Manufacture

In the past there were several production issues that were not overcome:

Pucks were made using both a stokes single station R press at 20 Klbsabove and below with a 2.5″ diameter and a 6″ max. depth of fill and aColton 16 station rotary with a 3″ tablet diameter and 12″ max depth offill and 40 Klbs above and below. The tablets were made using a straightmixture of ingredients. Tablet size varied greatly due to variation inparticle size, with the larger particles migrating to the tabletsurface. Test samplings were made to get a handle on particle sizedistribution. This enabled us to narrow in on an acceptable size rangein the 150 gram per puck range.

Shearing was found present in both types of tablets as well as particlesize stratification and uneven tablet head surface. The shearing isthought to be the result of the inability to release the trapped airwithin the straw particles during the compression stroke. This problemcan be overcome by making a tapered die to improve the air removal.

The incompressibility of the straw leads to pucks that would relax overtime and would become less hard and very friable. This would lead topoor tablet stability with tablets coming apart in shipment due tofriction with other tablets in bulk packaging. This problem can beovercome by grinding the ingredients into smaller size particles.

The sieve size (straw particle size screening) turned out to be acritical factor for success in tablet compression. (too large and toosmall resulted in poor tableting results). The correct sieve size is touse in the present invention has been determined to be below a size six.

The bulk density of the tablets was reduced due to the high percentageof straw used in the formulation. This led to tablets that would floatas the percarbonate would effervesce. So, rather than disintegrating,the tablet would stay intact, continually floating and sinking. Thisreduces the tablet's performance. It is better to have a dense tabletthat sinks to the bottom and disintegrates with the ingredients beingcontinually disbursed throughout the water column. This can beaccomplished by using denser filler and binder materials.

Also, there was an issue with foaming, probably due to the stearate usedto lubricate the press. It was added at about a 0.5 to 1.0% by weightand was insoluble. It was found that magnesium stearate or sodiumstearate can be used.

Tablet Ingredients

-   -   1. (40-60%) may contain some or all of the following        botanicals—dehydrated, pulverized, screened and powdered        drumstick tree seed (genus Moringa), Soapnut Tree seed shell        (genus Sapindus), neem tree seed oil (genus Azadirachta, Melia        or Antelaea), Caster tree seed (genus Ricinus) aloe vera leaf        (genus Aloe), prickly pair cactus leaf and fruit (genus Opuntia)        Guar Gum Tree seed (genus Cyamopsis), horseradish root (genus        Armoracia or Cochlearia), barley chaff (genus Hordeum), Ryegrass        leaf (genus Lolium), Oat chaff (genus Avena), Lucerne leaf        (genus Medicago) Yucca leaf (genus Yucca), red clover leaf        (genus Trifolium), Mucoralean Fungi (genus Actinomucor, Mucor,        Cunninghamella and Syncephalastrum).    -   2. (10-30%) AppTec Aqua Kleer® Moringa oleifera seed protein        powder.    -   3. (20%) sodium carbonate peroxydrate—granular and coated, and        stabilized.    -   4. sodium carbonate —(% varies to makeup difference in        formulation weight) particle size similar to percarbonate, which        is about size four.    -   5. (5-7%) binders and fillers—polyethylene glycol 6 k, polyvinyl        pyrrolidone (pvp) k-30, shellac natural gum, microcrystalline        cellulose (mcc), lactose, hydroxypropyl methyl cellulose (hpmc),        ethyl cellulose (ec), sodium chloride, talc.    -   6. (0-5%) W and W/O bacterial product (eg. Bacillus        licheniformis, Bacillus subtilis, Bacillus polymyxa, Bacillus        megaterium, Pseudomonas putida, and Lactobacillus sp.)

B. Grease Trap Mini Pucks

This product forms stable and structurally sound, odor reductionmini-pucks (or tablets) using the listed ingredients in a 0.75″ to 1.5″tablet diameter size with a weight of about 50 grams per mini-puck.These tablets can be produced specifically for a client to enhanceperformance within the client's proprietary mechanical grease separatingdevice, such as Big Dipper Grease Traps and the Greaseaway AutomatedTraps. This device automatically skims floating oil and grease off thesurface and removes it into a separate container by having it stick toan electrostatically charged rotating perpendicular plastic wheel andsqueegee. To enhance performance the tablets will:

-   -   1. Effervesce oxygen to degas the odors from solution.    -   2. The bubbles will entrain with the grease cap layer ensuring        buoyancy.    -   3. Improve phase separation of FOG (fats, oils and greases) out        of the water column.    -   4. Improve suspended solids settling by charge agglomeration        with the Aqua Kleer protein and bubbling action.    -   5. Help prevent the recreation of the odors by keeping the        system aerobic and binding hydrogen sulfide with the derivative        of Ricinus communis seed extract.)

Tablet Ingredients

-   -   1. (30-50%) sodium carbonate peroxydrate—granular and coated,        and stabilized.    -   2. (5-20%) AppTec Aqua Kleer® Moringa oleifera seed protein        powder.    -   3. (0.5-20%) AppTec Dieoshield Ricinus communis seed extract        paste which has been processed into a dry flowable powder using        a proprietary fluidized-bed processing technique.    -   4. (2-3%) sodium C14-16 olefin sulfonate-surfacant-bioactive or        a proprietary blend on non-ionic ethoxlated alcohols which have        been dried and flaked.    -   5. (10-15%) binders and fillers—polyethylene glycol 6 k,        polyvinyl pyrrolidone (pvp) k-30, shellac natural gum,        microcrystalline cellulose (mcc), lactose, hydroxypropyl methyl        cellulose (hpmc), ethyl cellulose (ec), sodium chloride, talc.    -   6. (1.0%) sodium bi-carbonate=pH and alkalinity buffer and        filler.    -   7. No bacteria in this formulation.

Wastewater Treatment Pucks

This product forms stable and structurally sound, wastewaterpretreatment pucks (or tablets) using the listed ingredients in a 2.5″to 3.0″ tablet diameter size with a weight of about 0.5 pounds. Thesetablets are produced specifically to be used to pre-treat wastewaterstreams before formal treatment process. To enhance performance thetablets will:

-   -   1. Effervesce oxygen to degas the odors from solution.    -   2. Keep the wastewater stream minimally aerobic.    -   3. Help prevent corrosive acid damage by neutralizing existing        acids and preventing the formation of new acid at the laminar        zones within piping structure.    -   4. The bubbles will entrain with the grease cap layer ensuring        buoyancy and maintain aerobic conditions.    -   5. Improve phase separation of FOG (fats, oils, and greases) out        of the water column.    -   6. Improve suspended solids settling by charge agglomeration        with the Aqua Kleer® protein and bubbling action increasing        suspended particle collisions thereby increasing settling rates.    -   7. Help prevent the recreation of the odors by keeping the        system aerobic and binding hydrogen sulfide with the Deoshield®.    -   8. Inoculate each layer (grease cap, water column and settled        sludge blanket layer) within the waste stream with the proper        microbes.

Tablet Ingredients

-   -   1. (30-50%) sodium carbonate peroxydrate—granular and coated,        time-released and stabilized.    -   2. (5-20%) AppTec Aqua Kleer®& Moringa oleifera seed protein        powder.    -   3. (0.5-20%) AppTec Dieoshield Ricinus communis seed extract        paste which has been processed into a dry flowable powder using        a proprietary fluidized-bed processing technique.    -   4. (2-3%) sodium C14-16 olefin sulfonate-surfacant-bioactive or        a proprietary blend on non-ionic ethoxlated alcohols which have        been dried and flaked.    -   5. (10-15%) binders and fillers binders and fillers—polyethylene        glycol 6 k, polyvinyl pyrrolidone (pvp) k-30, shellac natural        gum, microcrystalline cellulose (mcc), lactose, hydroxypropyl        methyl cellulose (hpmc), ethyl cellulose (ec), sodium chloride,        talc.    -   6. (1.0%) sodium bi-carbonate—pH and alkalinity buffer and        filler.    -   7. (2-5%) bacterial component. Bacillus (e.g. Bacillus        licheniformis, Bacillus subtilis, Bacillus polymyxa, Bacillus        megaterium) and Pseudomonas (eg. Pseudomonasputida) and various        species and strains of fungi (e.g. Hanerochaete chrysosporium        and Aspergillus niger).

D. Grease Trap Treatment Pucks

This product forms stable and structurally sound, wastewaterpretreatment pucks (or tablets) using the listed ingredients in a 2.5″to 3.0″ tablet diameter size with a weight of about 0.5 pounds. Thesetablets are produced specifically to be used to pre-treat wastewaterstreams before formal treatment process. To enhance performance thetablets will:

-   -   1. Effervesce oxygen to degas the odors from solution.    -   2. Keep the grease trap minimally aerobic.    -   3. Help prevent corrosive acid damage by neutralizing existing        acids and preventing the formation of new acid at the laminar        zones within piping structure.    -   4. The bubbles will entrain with the grease cap layer ensuring        buoyancy and maintain aerobic conditions.    -   5. Improve phase separation of FOB (fats, oils and greases) out        of the water column.    -   6. Improve suspended solids settling by charge agglomeration        with the Aqua Kleer® protein and bubbling action increasing        suspended particle collisions thereby increasing settling rates.    -   7. Help prevent the recreation of the odors by keeping the        system aerobic and binding hydrogen sulfide with the derivative        of Ricinus communis seed extract.)    -   8. Inoculate each layer (grease cap, water, column and settled        sludge blanket layer) within the waste stream with the proper        microbes.

Tablet Ingredients

-   -   1. (30-50%) sodium carbonate peroxydrate—granular and coated,        time-released and stabilized.    -   2. (5-20%) AppTec Aqua Kleer® Moringa oleifera seed protein        powder.    -   3. (0.5-20%) AppTec Dieoshield Ricinus communis seed extract        paste which has been processed into a dry flowable powder using        a proprietary fluidized-bed processing technique.    -   4. (2-3%) sodium C14-16 olefin sulfonate—surfactant—bioactive or        equivalent.    -   5. (10-15%) binders and fillers binders and fillers—polyethylene        glycol 6 k, polyvinyl pyrrolidone (pvp) k-30, shellac natural        gum, microcrystalline cellulose (mcc), lactose, hydroxypropyl        methyl cellulose (hpmc), ethyl cellulose (ec), sodium chloride,        talc.    -   6. (1.0%) sodium bi-carbonate—pH and alkalinity buffer and        filler.    -   7. (2-5%) Bacillus (e.g. Bacillus licheniformis, Bacillus        subtilis, Bacillus polymyxa, Bacillus megaterium) and        Pseudomonas (eg. Pseudomonasputida) and various species and        strains of fungi (e.g. Hanerochaete chrysosporium and        Aspergillus niger)

E. Portable Toilet Pucks

This product forms stable and structurally sound, portable toilettreatment mini-pucks (or tablets) using the listed ingredients in a0.75″ to 1.5″ tablet diameter size with a weight of about 40 grams to 50grams. These tablets are produced specifically used to pre-treat wastein holding tanks before and during transport to traditional wastetreatment facilities. They are designed to be environmentally friendlyalternative to currently used products that contain toxic compounds suchas methyl ammonia, quaternary ammonia, and formaldehyde. To enhanceperformance the tablets will:

-   -   1. Effervesce oxygen to degas the odors from solution.    -   2. Keep the waste container aerobic.    -   3. Help prevent corrosive acid damage by neutralizing existing        acids and preventing the formation of new acid.    -   4. Pre-treat the waste by aiding the breakdown of solids.    -   5. Improve suspended solids settling by charge agglomeration        with the Aqua Kleer® protein and bubbling action increasing        suspended particle collisions thereby increasing settling rates.    -   6. Help prevent the recreation of the odors by keeping the        system aerobic and binding hydrogen sulfide with the Deoshield®.    -   7. Inoculate each layer (grease cap, water, column and settled        sludge blanket layer) within the waste stream with the proper        microbes.    -   8. Provide a pleasant fragrance that is biodegradable and        non-toxic.    -   9. Provide a non-toxic dark blue dye that is colorfast in urine        acidic environments, while being non-staining.    -   10. Tablets should be coated for ease of handling.    -   11. Tablets should be sealed in protective packaging to prevent        loss of fragrance.

Tablet Ingredients

-   -   1. (20%) sodium carbonate peroxydrate—granular and sulfate        coated, and stabilized.    -   2. (2%) calcium peroxide.    -   3. (2%) sodium C14-16 olefin sulfonate-surfacant-bioactive or a        proprietary blend on non-ionic ethoxlated alcohols which have        been dried and flaked.    -   4. (10%) sugar—(lactose, fructose or maltose monohydrate        powder).    -   5. (used as filler) sodium chloride.    -   6. (used as filler) sodium carbonate.    -   7. (1.0%) sodium bi-carbonate.    -   8. (0.05%) sodium phosphate, monobasic.    -   9. (0.025%) sodium phosphate, dibasic.    -   10. (as needed) binders and fillers—polyethylene glycol 6 k,        polyvinyl pyrrolidone (pvp) k-30, shellac natural gum,        microcrystalline cellulose (mcc), lactose, hydroxypropyl methyl        cellulose (hpmc), ethyl cellulose (ec), sodium chloride, talc.    -   11. (1.0%) biodegradable dyes—non toxic—high strength blue yet        non-staining, stable in acid conditions    -   12. (0.5%) biodegradable—odor masking fragrance    -   13. (5.0-10%) AppTec Aqua Kleer® Moringa oleifera seed protein        powder.    -   14. An AppTec Dieoshield Ricinus communis seed extract paste        which has been processed into a dry flowable powder using a        proprietary fluidized-bed processing technique.

E. Drain Treatment—Insect Control

Powdered product Ingredients (percent by weight)

-   -   1. (20%) sodium carbonate peroxydrate—granular and coated,        time-released and stabilized.    -   2. (5%) Biodegradable organic botanical material such as        dehydrated leaf or chaff ground into a fine powder or        biodegradable microsponge material derived from the waste        product of corn, soy, barley, rye or drumstick tree seed.    -   3. (5%) AppTec Aqua Kleer® Moringa oleifera seed protein powder.    -   4. (0.5%) Concentrated neem tree (Azadirachta indica) oil        extract containing a high concentration of the active ingredient        azadirachtin.    -   5. (5-10%) PG/PEG 6000    -   10. (as needed to make up difference) binders and        fillers—polyethylene glycol 6 k, polyvinyl pyrrolidone (pvp)        k-30, shellac natural gum, microcrystalline cellulose (mcc),        lactose, hydroxypropyl methyl cellulose (hpmc), ethyl cellulose        (ec), sodium chloride, talc.    -   11. (0.5%) fragrance biodegradable—odor masking fragrance (may        be omitted)

Additional Aspects of the Present Invention

Especially when treating large bodies of water, such as a pond or awastewater container, an efficient method of dispersing the inventivepucks would be desirable. Thus, as another aspect of the presentinvention, there is envisioned a hopper for containing a plurality ofpucks. The hopper can be humidity controlled to prevent pucks fromprematurely reacting to moisture. The hopper can be attached to, forexample, a boat, for example at the side or stern of a boat. The hopperincludes, preferably, a motor with a battery or other power supply, suchas solar power, an auger and a retaining door. Using this device, a boatcan traverse a body of water to be treated and the hopper will releasepucks into the water at a desired rate. When treating a water orwastewater moving through a treatment system (sewer pipes, liftstations, treatment basins etc.) it is possible to place a hopper at afixed location will automatically deliver tablets to the wastestream ata desired rate.

Another device of the present invention automatically tosses or ejectspucks into a body of surface water, such as a pond, lake or lagoon. Thedevice comprises a hopper to store a quantity of pucks, and the hoppercan be humidity controlled to prevent the pucks from reactingprematurely with moisture. The hopper would then deliver the pucks to alauncher mechanism, such as a spring loaded launcher mechanism. Thelauncher mechanism would then eject the pucks, preferably at differentvelocities and in different directions, to allow for maximumdistribution. The device can be electronically controlled andprogrammable. The power source can be any conventional source, such as abattery, solar power or external power source.

Also for treating a body of water, such as a pond or waste watercontainer, and depending on the conditions being treated, the buoyancyof the components within the puck can be important. As the tabletdisintegrates and releases its components, controlling where particularingredients such as the buffers and the biological (microbial) portionsend up can greatly increase the likelihood of successful treatment. Forexample, a grease cap layer on the water can be treated with a puckhaving those mentioned components with positive buoyancy. Suspendedsolids in a water column can be treated with components having neutralbuoyancy. A sediment layer can be treated with components havingnegative buoyancy. The advantage to using this method is to add only onepuck containing components of various buoyancies, thereby treating thesurface middle and bottom with the correct components simultaneously.

Positive buoyancy components include bran flakes, saw dust and barleystraw. Substrates for neutrally buoyant puck include dissolvingsubstrates, sodium bicarbonate, sodium carbonate, micro-sponge andpolymers. For negatively buoyant components one can use dense or heavyclays and Diatomaceous Earth and zeolites which will sink. Thesecomponents can act as substrate or carrier onto which the microbes canbe lyophilized or adsorbed. The type of organism applied to thesubstrate will depend upon the type and location of the contaminantwhich is to be broken down by the microbe. If the contaminant isfloating surface oil and grease than a positively buoyant substrate canbe chosen and microbial strains applied to it that are useful inbreaking down oil an grease. used depends upon the organism chosen to beapplied to the substrate, where the organism is chosen for its abilityto break down specific contaminants located in that area. The amountused can be part of the percent by weight listed in the bacterialportion of the above products.

In addition to the components mentioned above, it may be desirable tohold the pucks themselves at a desired depth in the water as theydisintegrate. This may be necessary to insure the maximum dispersionwithin the water system. One way to do this is to provide for a tubewith a cage at its bottom, wherein the cage is made of a non-corrosivemetal or plastic. The tube is lowered to the desired depth and then thepuck or pucks are added. Preferably, the puck or pucks will havesufficient negative buoyancy so that they will sink down to the cage.The pucks can be stored in a hopper of the type described above, whichcan be attached to the tube. Pucks are then released from the hopperinto the tube.

Discussed above are preparations for treating gray grease, sometimescalled brown grease. A further aspect of this invention is to convertthe gray grease to yellow grease, which can be used as a feed stock inthe production of, for example, biodiesel fuel.

The problems with processing of gray grease into a useful feed-stock forbiodiesel production are that it is emulsified with water, it containsembedded particles and there are mixtures of different compoundscontaminating the grease.

To overcome these problems, the gray grease is first dewatered by acombination of heating and vibration, such as ultrasound. It is thenexposed to various wavelengths of light (within the ultraviolet range)Thereafter, pucks or granules of the type disclosed above for treating agrease cap is used to inoculate the grease cap layer. This can occur ina holding tank which contained the gray grease.

Thereafter, the water can be decanted from the bottom of the tank,preferably with a vortexing pump (separates oil and water), with the oilportion being sent back into the tank. Once decanted, the waste oil orgrease can be vibrated and heated to aid in the phase separation withdifferent portions being removed from different levels of the holdingtank.

EXAMPLES

The present Examples relate to three products: the 150 gm wastewaterpuck; the 50 gram wastewater puck; and the 150 gram pond clarifier puck.

1. The 150 gram ADS AquaPucks™ Wastewater Treatment Puck is made usingthe standard tableting practice of batch production. The ingredientslisted below are mixed together with a total weight of 2000 lbs perbatch. Colton 16 station rotary press with a 3.0″ tablet punches and 12″max depth of fill and 40 Klbs above and below yielding a compression of40 tons using the standard method outlined in the APA TabletingSpecification Manual. The press is set at ¾ maximum pressures and speedwas adjusted to ¼ of full to prevent capping. The formulation used islisted below:

ADS AQUAPUCKS WASTE WATER TREATMENT COMPONENTS PER PUCK % by PUCK SIZE(3.0″ DIA) wt. Grams Moringa Seed Powder 5 7.5 NA-PERCARBONATE 20 30NA-CARBONATE 5 7.5 NA-BICARBONATE 1 1.5 BACTERIA on substrates 5.1 8.0POLYETHYLENE GLYCOL, PG/PEG 6000 6.0 9.0 NA-OLE SULFO C14-16(Surfactant) 2.5 3.75 BINDERS (PVP, SHELLAC) POLYVINYL PYRROLIDONE, PVPK-30 0.2 .3 SHELLAC (Natural Gum) 0.1 .15 FILLERS (MCC, SDL)Microcrystalline Cellulose (MCC) 2.5 3.75 Spray Dried Lactose (SDL) 20.030 NaCl 31.4 47.1 TOTAL 100% 150 GMS

The bacterial portion consists of the following types: Bacilluslicheniformis, Bacillus subtilis, Bacillus polymyxa, Bacillusmegaterium, Pseudomonas putida, and Lactobacillus sp.). For thispreparation, the bacteria were lyophilized onto three substrates(powdered bran flake, Calcium Carbonate, and clay powder).

The ingredients were placed in a large stainless steal tumbling mixerand tumbled for 3 minutes to insure homogeneity of the mixture. Themixture was then gravity feed into the rotary press for tableting.

The depth of fill was adjusted to create pucks of approximately 150grams of mass.

Tableting was performed in a temperature and humidity controlled room toimprove performance.

After tableting produced pucks were then shrink-wrapped into sleeves ofthree with an acetate film and then placed in air tight plastic bucketscontaining 30 sleeves, for storage.

Testing and evaluation was performed in a real-world wastewatertreatment facility. The tests conducted evaluated the ability of thepucks in removing odors and preventing odorous compound reformation in awastewater effluent from a manufacturing plant. The sulfides analyzedincluded hydrogen sulfide, carbonyl sulfide, methyl mercaptan, dimethylsulfide, and carbon disulfide. These compounds made up the majorityresponsible for odors at this field trail. The plant has a wastewaterpretreatment facility capable of treating 2 million gallons ofwastewater per day. The pucks were added to the lift station pumping thewastewater to a pair of 400,000 gallon equalization tanks. The treatedeffluent is than discharged into a sanitary sewer leading to the town'smunicipal wastewater treatment facility for further treatment. After a 6week trail, it was determined that 1.52 lbs of the pucks are capable ofremoving 1.0 pounds of sulfur from the wastewater. This resulted in a92% reduction, to acceptable levels, from the predicted average dailysulfide level using 3.0 pounds of pucks in 1.7 million gallons ofwastewater. It was also determined that dosages required to maintainsulfide removal rates varied with temperature, COD (chemical oxygendemand) levels and wastewater detention times (HRT).

The dosage/response chart based on 0.7 million gallons of wastewater perday, below can be used as a guideline for calculating the correct amountof material to neutralize sulfide compounds to acceptable levelsassuming initial concentrations of 1390 mg/l or parts per million.

COD (mg/L): 100 200 300 400 500 Water T Predicted Aqua-Puck dosing (deg.C) requirement (lb/d) High HRT = 26.3 hr 20 2.8 3.0 3.2 3.4 3.5 25 4.14.4 4.6 4.8 5.1 30 5.9 6.2 6.6 6.9 7.3 Average HRT = 18.8 hr 20 1.7 1.82.0 2.2 2.4 25 2.5 2.7 2.9 3.2 3.4 30 3.6 3.9 4.3 4.6 5.0 Low HRT = 14.6hr 20 1.0 1.2 1.4 1.5 1.7 25 1.5 1.8 2.0 2.3 2.5 30 2.3 2.6 3.0 3.3 3.7

FIG. 1 shows a comparison of measured liquid-phase sulfide productionduring Aqua-Puck Dosing period to predicted liquid-phase sulfideproduction using simple correlation equation based on TA-HRT and CODconcentration

FIG. 2 shows a comparison of measured TA-220 liquid-phase sulfideconcentration during Aqua-Puck Dosing period to predicted liquid-phasesulfide concentration using simple correlation equation based on HRT andCOD concentration

2. The 50 gram ADS AquaPucks™ Wastewater Treatment Mini-Puck is madeusing the standard tableting practice of batch production. Theingredients listed below are mixed together with a total weight of 2000lbs per batch. Colton 16 station rotary press with a 2.0″ tablet punchesand 12″ max depth of fill and 40 Klbs above and below yielding acompression of 40 tons using the standard method outlined in the APATableting Specification Manual. The press is set at ¼ maximum pressuresand speed was adjusted to ¼ of full to prevent capping.

The same method as in the manufacture of the 150 gm pucks was used tomake the fifty gram tablets with the exception that 2″ diameter puncheswere used and the depth of fill was adjusted to create pucks of thecorrect mass.

The formulation used is listed below:

ADS AQUAPUCKS WASTE WATER TREATMENT COMPONENTS PER PUCK % by PUCK SIZE(2.0″ DIA) wt. Grams Moringa Seed Powder 5 2.5 NA-PERCARBONATE 20 10NA-CARBONATE 5 2.5 NA-BICARBONATE 1 0.5 BACTERIA on substrates 5.1 2.55POLYETHYLENE GLYCOL, PG/PEG 6000 6.0 3.0 NA-OLE SULFO C14-16(Surfactant) 2.5 1.25 BINDERS (PVP, SHELLAC) POLYVINYL PYRROLIDONE, PVPK-30 0.2 0.1 SHELLAC (Natural Gum) 0.1 0.05 FILLERS (MCC, SDL)Microcrystalline Cellulose (MCC) 2.5 1.25 Spray Dried Lactose (SDL) 20.010 NaCl 31.4 15.52 TOTAL 100% 50 GMS

The bacterial portion consists of the following types Bacilluslicheniformis—Bacillus subtilis, Bacillus polymyxa, Bacillus megaterium,Pseudomonas putida, and Lactobacillus sp.). For this preparation, thebacteria were lyophilized onto three substrates (powdered bran flake,Calcium Carbonate, and clay powder).

A field trial was conducted at a country club having a series of three500 gallon traps leaving their restaurant and entering a sanitary sewer.Each of the traps was pumped out completely every three weeks asmandated by the municipality. Before trials with the pucks and eventhough this was being conducted, the effluent leaving the traps wasroutinely exceeding the clubs discharge permit guidelines for BOD, COD,TSS and O&G. This had resulted in expensive fines and surcharges. Therewas also a tremendous amount of odor emanating form the traps which wasoffensive to the club members. Field testing of the 50 gram pucks in anexternal grease interceptor has resulted positively in the followingdata.

Date Bod Tss Cld Ph May 4, 2006 9590 1800 919 7.56 Jun. 6, 2006 23.7 8437.3 7.56 Jun. 15, 2006 152 830 44.3 7.56 Jun. 20, 2008 162 668 51.27.45 Jun. 29, 2006 136 908 12.2 7.21 Oil and Grease May 10, 2006 242mg/l Jun. 6, 2006 120 mg/l Jun. 15, 2006 43.9 mg/l  Jun. 20, 2006 160mg/l Jun. 29, 2008 108 mg/l

The data shows a tremendous increase in efficiency of the trap resultingin a 98.6% reduction in BOD (Biological oxygen demand) 49.6% reductionin TSS (Total suspended Solids) 98.6% reduction in COD (Chemical OxygenDemand) and a 55.4% reduction in Oil and Grease. In addition the odorsemanating from the traps were eliminated. These reductions in wastewaterleaving the trap were achieved by applying 3 lbs per trap three timesper week. The reductions brought the club back into compliance withtheir discharge permit and eliminated their fines and surcharges.

3. The 150 gram ADS AquaPucks™ Pond Clarifier Puck is made using thestandard tableting practice of batch production. The ingredients listedbelow are mixed together with a total weight of 2000 lbs per batch.Colton 16 station rotary press with a 3.0 “tablet punches and 12” maxdepth of fill and 40 Klbs above and below yielding a compression of 40tons using the standard method outlined in the APA TabletingSpecification Manual. The press is set at ¾ maximum pressures and speedwas adjusted to ¼ of full to prevent capping. The formulation used islisted below:

ADS AQUAPUCKS WASTE WATER TREATMENT COMPONENTS PER PUCK % by PUCK SIZE(3.0″ DIA) wt. Grams Dehydrated and powdered Barley chaff 25 37.5Moringa Seed Powder 10 15 NA-PERCARBONATE 20 30 BACTERIA on substrates5.1 8.0 POLYETHYLENE GLYCOL, PG/PEG 6000 6.0 9.0 BINDERS (PVP, SHELLAC)POLYVINYL PYRROLIDONE, PVP K-30 0.2 .3 SHELLAC (Natural Gum) 0.1 .15FILLERS (MCC, SDL) Microcrystalline Cellulose (MCC) 2.5 3.75 Spray DriedLactose (SDL) 15.0 22.5 NaCl 22.1 33.15 TOTAL 100% 150 GMS

The bacterial portion consists of the following types Bacilluslicheniformis—Bacillus subtilis, Bacillus polymyxa, Bacillus megaterium,Pseudomonas putida, and Lactobacillus sp.). For this preparation, thebacteria were lyophilized onto three substrates (powdered bran flake,Calcium Carbonate, and clay powder).

The same method as in the manufacture to make 150 gm wastewater puckswas used to make the 150 gram pond clarifier pucks with the exceptionthat 3″ diameter punches were used and the depth of fill was adjusted tocreate pucks of the correct mass.

1. A pond treatment puck comprising: a. plant extract protein whichexhibits a negative valence charge; b. an oxidative alkali; and c. aclarifying agent.
 2. The pond treatment puck of claim 1, furthercomprising one or more microorganisms.
 3. The pond treatment puck ofclaim 2, wherein the microorganism is one or a combination of Bacillus,Pseudomonas and Lactobacillus.
 4. The pond treatment puck of claim 1,wherein the oxidative alkali is sodium carbonate peroxyhydrate, sodiumperborate or sodium peroxide.
 5. The pond treatment puck of any of claim1, wherein the clarifying agent is an activated botanical protein fromthe genus Moringa.
 6. The pond treatment puck of claim 1, furthercomprising a positive buoyancy component, a neutrally buoyant component,a negatively buoyant component or a combination thereof.
 7. A puck fortreating waste water or a grease trap comprising: a. an oxidativealkali; b. a clarifying agent; c. Ricinus seed extract; and d. asurfactant.
 8. The puck of claim 7 further comprising one or moremicroorganisms.
 9. The puck of claim 8 wherein the microorganism isBacillus, Pseudomonas, a strain of fungi, or a combination thereof. 10.The puck of claim 7, wherein the oxidative alkali is sodium carbonateperoxyhydrate, sodium perborate or sodium peroxide.
 11. The puck ofclaim 7, wherein the clarifying agent is an activated botanical proteinfrom the genus Moringa.
 12. The puck of claim 7, wherein the surfactantis sodium C14-16 olefin sulfonate.
 13. A puck for treating a portabletoilet, which comprises: a. an oxidative alkali; b. calcium peroxide; c.a sugar; d. a clarifying agent; and e. Ricinus seed extract.
 14. Thepuck of claim 13 further comprising a biodegradable fragrance.
 15. Thepuck of claim 13 further comprising a non-toxic biodegradable dye. 16.The puck of claim 13, wherein the oxidative alkali is sodium carbonateperoxyhydrate, sodium perborate or sodium peroxide.
 17. The puck ofclaim 13, wherein the clarifying agent is an activated botanical proteinfrom the genus Moringa.
 18. The puck of claim 13, wherein the sugar islactose, fructose or maltose.
 19. An insect control powder comprising:a. an oxidative alkali; b. a biodegradable organic botanical material;c. a clarifying agent; d. neem tree oil extract containing azadirachtin;and e. PG/PEG
 6000. 20. The powder of claim 19, wherein the oxidativealkali is sodium carbonate peroxyhydrate, sodium perborate or sodiumperoxide.
 21. The powder of claim 19, wherein the clarifying agent is anactivated botanical protein from the genus Moringa.
 22. A water treatingdevice comprising: a. a hopper capable of containing one or more pucks,wherein said pucks are selected from the group consisting of a pondtreatment puck comprising a plant extract protein which exhibits anegative valence charge, an oxidative alkali and a clarifying agent; anda puck for treating waste water or a grease trap comprising an oxidativealkali, a clarifying agent, Ricinus seed extract and a surfactant; andb. a puck dispensing means.
 23. The water treating device of claim 22wherein the hopper is humidity controlled.
 24. The water treating deviceof claim 22 wherein the puck dispensing means is a pipe wherein thepucks are introduced at a first end and a screen or basket is placed ata second end, and the second end of the pipe is placed at a desireddepth.
 25. The water treating device of claim 24 wherein the pucksfurther comprise a negatively buoyant component.
 26. The water treatingdevice of claim 22 wherein the puck dispensing means is a spring loadedlauncher mechanism.
 27. The water treating device of claim 26 whereinthe spring loaded launcher mechanism is electronically controlled andprogrammable.